ᱟᱹᱰᱤ ᱜᱟᱱ ᱦᱚᱲ ᱠᱚ ᱫᱚ 2017 ᱥᱟᱞᱟᱜ ᱠᱚ ᱵᱟᱹᱲᱤᱡ ᱟᱠᱟᱱᱟ, ᱡᱟᱦᱟᱸ ᱨᱮ ᱟᱹᱰᱤ ᱜᱟᱱ ᱦᱚᱲ ᱠᱚ ᱢᱮᱱᱟᱜ ᱠᱚᱣᱟ, ᱚᱱᱟ ᱛᱮ ᱟᱹᱰᱤ ᱜᱟᱱ ᱦᱚᱲ ᱠᱚ ᱢᱮᱱᱟᱜ ᱠᱚᱣᱟ, ᱚᱱᱟ ᱠᱚ ᱢᱩᱫᱽ ᱨᱮ ᱢᱤᱫ ᱦᱚᱲ ᱫᱚ ᱟᱹᱰᱤ ᱵᱟᱹᱲᱤᱡ ᱟᱨ ᱵᱟᱹᱲᱤᱡ ᱟᱨ ᱵᱟᱹᱲᱤᱡ ᱟᱨ ᱵᱟᱹᱲᱤᱡ ᱠᱟᱹᱢᱤ ᱠᱚ ᱩᱫᱩᱜ ᱠᱟᱱᱟ.
One of the biggest features of the vertebroplasty system is its minimally invasive nature. Traditional spinal surgery often requires large-area incisions, which are traumatic and slow to recover. The vertebroplasty system uses microcatheters and specially designed instruments, allowing doctors to complete the operation with almost no damage to surrounding tissues. This not only reduces the risk of surgery, but also greatly ᱥᱟᱱᱟᱢ ᱠᱷᱚᱱ ᱵᱮᱥ ᱜᱩᱱ ᱫᱚ ᱦᱩᱭᱩᱜ ᱠᱟᱱᱟ www.4.
The accuracy of the system is also its significant advantage. With the help of advanced image-guided technology, doctors can accurately locate the damaged vertebrae and accurately inject filling materials such as bone cement into the fracture site to achieve precise repair. This precise operation not only improves the treatment effect, but also reduces the incidence of complications.
In addition, the vertebroplasty system also exhibits good biocompatibility. The materials used are mostly biocompatible polymer materials, which have good affinity with human tissues and reduce the occurrence of rejection reactions. At the same time, these materials also have good mechanical properties, which can provide necessary support while maintaining the flexibility and mobility of the vertebrae.
In the international market, the demand for vertebroplasty systems continues to grow. With the increasing aging of the global population, the incidence of spinal diseases such as vertebral fractures continues to rise. As an effective treatment method, vertebroplasty systems have broad market prospects.
ᱩᱥᱟᱹᱨᱟ ᱟᱨ ᱨᱩᱠᱷᱤᱭᱟᱹ ᱞᱟᱹᱜᱤᱫ, ᱱᱟᱶᱟ ᱪᱤᱠᱤᱥᱟᱱ ᱟᱨ ᱪᱤᱠᱤᱥᱟᱱ ᱠᱚ ᱫᱚ ᱟᱹᱰᱤ ᱜᱷᱟᱹᱲᱤᱡ ᱜᱮ ᱢᱮᱱᱟᱜ-ᱟ, ᱚᱱᱟ ᱛᱮ APIs ᱟᱨ APIs ᱠᱚ ᱫᱚ ᱟᱹᱰᱤ ᱜᱟᱱ ᱨᱟᱱ ᱠᱚ ᱧᱟᱢ ᱫᱟᱲᱮᱭᱟᱜ-ᱟ ᱾